Cooking machine



COOKING MACHINE '7 Sheets-Sheet 1 Filed April 30, 1949 June 6, 1950 L. w: CURRIER, JR

COOKING MACHINE 7 Sheets-Sheet 2 Filed April 30, 1949 June 6, 1950 L. w. CURRIER, JR

COOKING MACHINE 7 Sheets-Sheet 5 Filed April 30, 1949 'IIIII'IIIIIIII'II I June 6, 1950 L. w. CURRIER, JR

COOKING MACHINE 7 Sheets-Sheet 6 Filed April 50, 1949 8 W w-IVA Iawenfofl:

Leslie 624 91323172 Jiliyls June 6, 1950 w. CURRIER, JR 2,510,866

COOKING MACHINE Filed April 50, 1949 '7' Sheets-Sheet 7 lesla'efill'wzz'erg J Patented June 6, 1950 UNITED STATES PATENT OFFICE COOKING MACHINE Leslie W. Currier, Jr., Kingston, N. H.

Application April 30, 1949, Serial No. 90,605

18 Claims.

My invention relates to cookingmachines, particularly but not exclusively to one adapted for cooking nuts, 'the invention being an improvement in that disclosed in my pending application Serial Number 748,315, filed May 15, 1947.

The invention has among its objects a cooking machine provided with improved means for entering and removing the articles to be cooked into and from the cooking medium, with provision for varying at the will of the operator the duration of the cooking period. These and other objects of the invention will be best understood from the following description when read in the light of the accompanying drawings of an embodiment of the invention selected for illustrative purposes, while the scope of the invention will be more particularly pointed out in the appended claims.

In the drawings:

Fig. 1 is a side elevation of a cooking machine according to the invention, with parts broken away and parts in section;

Fig. 2 is a plan of the machine according to Fig. 1, with the rotary parts in a slightly different operative position, and with parts broken away;

Fig. 2a. illustrates a detail of the machine;

Fig. 3 is a section on the line 33 of Fig. 2, with the rotary parts in their operative position shown by Fig. 2, and with parts broken away and parts omitted;

Figs. 4, 5 and 6 are views corresponding to Fig. 3 with the parts in different operative positions;

Fig. 7 is a. fragmentary elevation of the machine as viewed from the top of Fig. 2, that is to say, from the opposite side of the machine from Fig. 1, with parts broken away and parts omitted;

Fig. 7a illustrates a detail of the machine on a reduced scale;

Figs. 8 and 9 are, respectively, sections on the lines 88 and 99 of Fig. '7 on an enlarged scale;

Fig. 10 is a section on the line l0l0 of Fig. 11 on an enlarged scale, with parts omitted;

Figs. 11 and 12 are, respectively, sections on the lines illl and l2-I2 of Fig. 1;

Fig. 13 is a section on the line i3l3 of Fig. 8 on a reduced scale, withparts omitted;

Fig. 14 is a section on the line l4-l4 of Fig. 13; and I Fig. 15 is a section on the line I5--I5 of Fig. 12 on an enlarged scale, with parts omitted.

Referring to the drawings, the machine illustrated comprises a base I above which is positioned a platform 3 supported on said base by the posts 5. Supported on the base is a container 1 (Figs. 1 and 12) for hot cooking liquid. Carried 2 by the container at opposite ends thereof adjacent one of its longitudinal edges are bearings 9 which support a rock shaft Ii. Fixedly carried by the rock shaft is a foraminous basket 13 for the nuts or other articles to be cooked. By moving the rock shaft in one direction of its oscillation the basket may be moved from its full line position shown by Fig. 1, in which position the nuts are cooked, to its dotted line position shown by that figure, in which latter position the contents of the basket are dumped. By moving the rock shaft in the opposite direction of its oscillation the basket may be returned from said dotted line position to said full line position, a batch of nuts or other articles to be cooked being charged into the basket while it is-being so returned.

The basket rock shaft II is oscillated by a swinging lever l5 pivotally supported at one end thereof on a pin I! carried by a vertically extending side plate [9 secured at its lower edge, preferably by welding, to the plateform 3, which latter supports it. Pivotally secured to the free end of the swinging lever at 2| is the upper end of a link 23, the latter at its lower end being pivotally connected at 25 to the outer end of a crank 21 fixedly carried by the basket rock shaft ll. When the lever I5 is in its position shown by Fig. 1 the basket will be in its full line position shown by that figure. By swinging the lever downward from its position shown by Fig. 1 the basket will be moved to its dotted line position shown by that figure.

As shown (see Figs. 1, l2 and 15) the lever l5 fixedly carries a boss 29 provided with a perforation in which is rotatably mounted a pin 3i slidable longitudinally in said perforation. At one end, in spaced relation to the lever, the pin carries a roller 33, a compression spring 35 being interposed between the roller and lever for yield ingly retaining the parts in the position shown b Fig. 15. A cotter pin 37, carried by the-pin at its end opposite the roller, retains itagainst removal from the perforation in the boss 29.

Rotatably mounted adjacent one of its ends in the side plate l9, and adjacent its opposite end in the opposite side plate 39, is a rotary shaft 4| (Figs. 11 and 12), the portion 43 of the shaft which projects beyond the side plate l9 being squared (Figs. 1, 11 and 12) and serving to spline to the shaft the hub 45 of a cam 41. Normally the cam is in a vertical plane at one side of the roller 33 on the lever [B as shown in Fig. 2, the

cam, which continuously rotates with the shaft 4 I, thus normally being.- ineffective to engage said roller. However, by sliding the cam outward along the shaft it may be brought over the roller, as shown in Fig. 12, whereupon the cam is effective to engage the roller and oscillate the swinging lever I for operating the basket through its cycles of movements.

In a manner hereinafter explained the continuously rotating cam 41 is slid along the shaft 4|, from its position relative to said shaft shown by Fig. 2 to its position relative tmsaid shaft shown by Fig. 12-, when the cam is in such angularly displaced position from that shown by Fig. 1 that it is directly behind the roller 33 as viewed in Fig. 1. This causes the outer vertical sideof the cam when so slid to bear against the end of the roller remote from the lever l5 and push; the. roller toward that lever against the resistance.

of the spring 35. As the cam continues to rotate it slides over this end of the roller, withwhich. its said vertical side is in contact, until the depres edr port on 4510f: he cam. moves. p s he; roller. whereup n he sprin 3.5a will snap. the roller under the peripheral; edse f; he am. o. place the parts. in. their.' positions. shown: y Fi s. 11 and; 12, and then. the. camby; Qontinuing torotate-in thedirection. of the arrow. shQWn by, Fig. 1: will: cooperate with. the roller to. oscillate the1ever.-l.5:for raising andlowering the basket. Whencontinuedzrotation of the camthrough one.

revolution. again brings. the depressed. portion 49: thereof. opposite. therollerthe. cam in. a manner hereinafter-described.- is slid: along the shaft 41: to. return. it toits position. relative to said shaft:

shown byFig. 2, so that thebasketawillvnotragain.

be operated. until the cam. is again slid. along.

the. shaft to return. it to itsposition, in. which.

its peripheral edge again engages the roller.

Asshown, the cam=carries-inspaced relationto its per-ipheral edge a. track 5| supported; onthecam bythearms 53: each secured at one. end: to.

the cam and at its oppositeend to the track, This; track-serves to hold the rollerfrom movinglaway; from the camwhen. the basket is descendin toward thelcontainer astheweight of the. base.

ket inlabsenceof' the track would move the roller.

away from thecam.

The-shaft- 41- is-driven by a continuously oper atingmotor 5 carried by theside'plates l9 and 38s This motor-is connected by a wormwheeL 5'1:

and-a worm 59 to-one-end=0f' a lay shaft 6% for driving the latter, the shaft 6 I being mounted in the clutch element 69'to hold the -twoclutch=elementsoutof engagement, as shownby-Fig. 2.

As-shown, thesleeve 44 at its endopposite .the clutch-element 'I3-is formed-with a notch 11 (Figs.

10; 11' and 12) which as shown-by-Fig. 10, is adaptedto receive'a lug at the end ofa block iH flxedly carried-by the side plate 39, for normally holdingthe sleeveagainstrotation.- When thesleeve is slid along the shaft in a manner hereinafter described, to cause the. clutch. e1e-... mentsto-engage, the notch 11 in thesleeve will bedrawnfrom engagementwiththe lug. 19, as.

shown by. Fig. 11; to permit the sleeve-to -.rotate 69 is in IQtativfl. position to. en g ith-the lav =1 4 with the shaft. When the sleeve is so rotated the spring 15 causes the extreme end of the sleeve adjacent the lug 19 to bear against it, and when the rotating sleeve makes one revolution to cause the notch to register again with the lug the spring will cause the notch and lug to snap into engagement and disengage the two clutch elements.

The end of the shaft 4| which projects beyond the side plate 39 carries;ar pinlon 8,3 which; meshes with-a gear this gearbeing rotetably supported on the reduced end portion 86 (Fig. 8) of a pin 81 carried by that side plate. At its side facing;the .s.ide plate the gear is shown as carrying four radially extending cams 89, SI, 93 and 95 (Fig. 13-) these-cams rotating with the gear, and, as shown in Fig.1'}, having inclined faces 91 and flat apex portions 99 of narrow width, these apex portions of the four cams being in quartering relation with each other, as shown by Fig. 13. As shown; the. cams. are; io m d. s; an; n e ra ha of;a circular plate; l-01;seeur$1: h :e a nfil suitable. manner; as, for: exam le. x: s ew which. preferably. have; iat: heads. eszes ed nt the plate.

Asshown. the ide pla en. s w th. an upwardly. infilinedilfici'fifl lllali' ll llm i I F g.5.. 7'; 7a.- 8 andi9); iniwhichlsl dehla mau teda block- H111 'nhisblockisretainei j ni he openin flfi helan es H l o medin egr uw ith he. block and coact el: w th. the nner: ide; o h side. plate 3a. and. by; a. plate; H11 ecu d o; he; block by-screws onef: whic isz howni a (Fi 8.). oppositeedsepn tionsqf: his-p at Mi ov rlappin th u en side.- ofh s e nle i 3.8:: opposite. the. flanges I3 1. Assh wn. he. lac is formediwith athroughperfqration; i l hr011 hl which extends one leg In of a bell crank-Jeyer; positioned between and pivoted at'; H8 toflpgs m; formed sintegrally. witnthelbloelaandiproie tingtthereiroin at? theinnerzside of the sideplajse 39. The other leg I23; of: the: bell; crank; leyer; e ends-vertically.- unwardiand ani freeiendbarries a. roller. L255 while-the otherzlealilz'la Q i hei bell crank lever its: and projecting..- from. the.- block attthe outer: side of the-.sideanlaitefid-carriesa rol1er-- I212 The. rollen- I253 is; adapted to be. intermittently,- engaged: by the four cams cabried: by the gean- 85-lS0\ as; to; swing; the-leg; H :1 of the bell crank lever upward, as viewedciniFig-h about: itspivotali connection 1 1| 3 a he $19 5; thisswinging; the le 123: of; the bell: cran de entothe left. as. viewed; in: $2.191. The 10 6.11 I2 cooperates .witha.disgi l29..-fixed .y/Q&rried; by, the;

- sleeve 111' on. the. shafts. U; 8.0. that; when; the. elle.

crank lever is. so. operated; by: the; arns; 11 m gear. 85'. the: disk; will: be=nu hedl I mL tS fl ll ill position shown by Fig. 9 to its dottedglinfialmsi tion shown by; that. figure. this: 1 355 ne. 129 itioncorresponding to the fullzline -pos.ition. f the,-

disk in Figs. 11: and:12a. The sleeve. bein fixed to'the-disk; moves .withdt:tozcausezthe plut hz elements 6.9 and; 13.: ojr Fig. 1.1;to-enga ge. The parts are so. designed that the sleeve; H1 is so; shifted: before-.the. jaw. 1th of; the; clutch element 14. of: the clutch. element; 1%; 1b. he. s eeve, so that the sleeve is not rotated by the shaft: l1 ntil after the notch: 13 on theisleevetisentirely disengagedirom the lug.1.9;normallwholdine; he s e ve frommotation.

As. shownl (see-.Fi .-.11)-, the sleeve-Hi adjacent: the clutch. is formed: with an: annula r Qiroumr" ferential; groove. I33; intdwhichl fitss he; f eetensh 7 of: an: arm. liaief; at. shiftc rodz Bk moun ed: for:

reciprocation in the arms I31 of a bracket I39, the base -I4.I of the. bracket being secured to the outer side of the side plate I9, and the body of the bracket extending through an opening I43 formed insaid plate. At its end opposite the arm I33 the shift rod carries an arm I45 the free end of which is received in an annular circumferential groove I41 formed in the hub 45 of the basket operating cam 41. By this construction, when the sleeve is shifted as above described, the cam is slid outward of the shaft to press the outer vertical side face of the cam against the adjacent end of the roller 33 on the lever 15, so that said roller will snap under the cam in position to be engaged by the peripheral edgeof the cam when theparts are in the position shown by Fig. 1, as hereinbefore explained.

As a consequence of the above construction, when any of the cam 89, 9|, 93 and 95 of the continuously rotating gear 85 operates the bell crank lever I I1, I23 to shift the sleeve 1|, the basket operating cam 41 will be shifted to move the basket through its cycle. The parts are so further designed that the sleeve 1I begins to rotate while the roller I21 is on the fiat apex portion 99 of the cam on the gear 85, so that when continued rotation of that gear causes the cam to move out of contact with the roller the spring 15 of the clutch 69, 13 will slightly shift the sleeve upward, as viewed in Fig. 11, to cause the end of the sleeve to bear against the adjacent side of the lug 19 on the plate 8| without disengaging the jaws 19, 14 of the clutch, which causes the sleeve to continue to rotate through one revolution until the notch 11 in the sleeve again moves into registry with the lug 19, whereupon the spring 15 snaps the sleeve upward, as viewed in Fig. 11, to cause the cam 41 to be moved from above the roller 33 on the basket operating lever, as has been heretofore described. During this revolution of the cam, the basket, as above explained, moves through its cycle of operations, the basket remaining in the cooking liquid until the basket is again caused to move through its cycle by reason of the next successive cam on the gear 85 causing the cam 41 to shift to move the basket through its next successive cycle. The interval elapsing between operations of the bell crank leve by successive cams on the gear 85 determines the time the articles charged to the basket remain in the cooking liquid, and therefore determines the length of time said articles are cooked.

As shown in Fig. 8, the plate III attached to the block I01 which carries the bell crank lever II'I, I23 is formed at one end with a lug I49 to which is pivoted, at II, one end of a link I53. The other end of this link is pivotally connected, at I55, to the free end of an arm I51 (Fig. '1) of a bell crank lever, which latter is pivotally mounted 'on the outer side of the side plate 39 at I59. The other arm IBI of this bell crank lever serves as a handle for swinging the bell crank lever so as to slide the block I01 longitudinally of the openin I85 in the side plate 39. Thissliding of the block is effective to position the roller I21 of the bell crank lever II1, I23 in different positions radially of the gear 85. The free end of the arm I6I of the bell crank lever employed for so moving the block cooperates with notches I63 (Fig. 1) formed in the edge of a vertically extending plate I55 fixedly carried by the'platform 3, the arm being laterally'resilient and sliding over that edge so that itwill snap-into the notches whenibrought intoreglstry with them; In this way the block I81 is releas ably held in its adjusted positions. When the block is moved to position the roller I21 at its maximum distance from the axis of the gear only the radially longer cam 89 will be effective to operate the bell crank lever II1, I23. Consequently, under such conditions, the bell crank lever will be .operatedonly once for each revolution of the gear 85. When the block is moved to an intermediate position lengthwise of the opening I85 the roller I21 will be in the path of the cam 9| on that gear as well as in the path of the cam 89. Hence under these latter conditions the bell crank lever will be operated twice during each revolution of. the gear 85. When the block is shifted to position it at its minimum distance from the axis of the gear 85 the roller I21 will be in the path of all four cams on the gear and hence will be operated four times during each revolution of the gear. The parts are designed,

for example, so that the gear 85 makes one revo-.

lution in about six minutes. With such a rate of revolution of the gear the motion of the basket through its cycle may be initiated every six minutes,or every three minutes, or every minute and a half,.to vary the time of cooking the articles, the basket in each instance moving through its cycle in a constant time say, for example, about forty seconds.

The articles such as nuts to be cookedarestored in the hopper !61. Below the hopper the side plates 39 and I9 carry a metal sheet bent-to form the side walls I69, I1I, I13 and I15 (Figs. 3 andll) so as to form a chamber I11 for receiving nuts discharged from the hopper. Entrance of nuts to this chamber is controlled by an upper slidingvalve I19, and discharge of the nuts from the chamber is controlled by a lower sliding valve I8 I. When the valves are in their positions shown by Fig. 4 the upper valve I19 is open and the lower valve I8I is closed. Consequently the chamber will be filled with nuts from the hopper, after which the valve I19 closes while the valve I 8| remains closed so as to cause the chamber to be filled with a measured quantity of nuts. the valves are in their positions shown by Fig. 6 thelower valve I8I is open while the valve I19 still remains closed, which will cause the measured quantity of nuts to be discharged from the;

chamber into a chute I83 above the container so as to charge the basket with nuts' while it is above the container and is descending during its cycle of operations.

As shown, the lower valve I8I is formed with a downwardly inclined terminal portion I85, the free end of which when the valve is closed coacts with a plate I81 (Fig. 3) extending from the loweredge of the wall I 15 of the chamber I11 to the top of the corresponding wall of the chute I83, the space at the upper side of the inclined portion I85 and the lower edges of the walls of the,

chamber I 11 in effect forming part of that chamber, as clearly shown in Fig. 3. This inclined portion I85 of the lower valve also acts to direct the nuts being discharged from the chamber I11 into the chute I83. When the lower valve is open the inclined portion I85 thereof coacts with a flange I89 at the upper transverse edge of the chute I83 also to direct the nuts into the chute,- as clearly shown in Fig. 6.

The two valves I19 and I8I are mounted for reciprocation in longitudinally extending grooves I9I (Figs. 3 and12) formed in the inner side surfaces of the side plates I9 and 39. The valves are'operated through their cycle bythesleevcfi.

When

w en 'H- while: the: latter is: rotating; for moving the basket; through its: cycle;- For: this purpose the: upper.- valve; 11.9; is: formed with elongated slots: I83 and I85 (Figs-.2, 33111112). Theslot. r93: has closed ends, and cooperating: with it isaa. radially extending cam. arm. I921 (Figs. 2: and: 3 formed; integrally with: the! sleeve. Hi. When. the; parts are. intheir normal; positions: shown; by Figs; 2-. and 3; and; the sleeve is: then shifted: downward. as: viewedin: Fig; 2;. by the cams onthe gear 85 tncause the sleeve to rotate, the. cam arm. I251 is: causedto lie beneath the;- slot'. I93. Rotation. of the sleeve-inthezdirectionof the arrowsshow-m in Figs. 3. and. 4; fromlits position shown inlFigz. 3i tn: that shown in Fig. 4 causes the end of the calm arm to enterthe; slot: I93, and, by. engaging. the left. handclosed? endof that. slot; as viewedinEigs..3 and 4; push the valve to its. openposition shown in Thasleeve. ll also is integrallyformed with-a1 radially projecting segmental. member I99 (-Figs; 2 and 3) which carries-.aroller' ZUI, theperipheoral surfaceof. the segmentbeing concentric with. the sleeve. This. peripheral surface and roller 250.4 cooperatewitha swinging arm 203'pivotally mounted, at 205', on the platform. 3-; The arm- 203 in" tum: cooperates witha roller carried at the end of one leg 203: of: a bell crank lever, the other leg 2 of which lever extends into the slot: L95: in. the upper valve I19: and isadapted to bear against theolosed right hand end of: said slot, as viewed in. Fig- 2; The bell crank lever" 208; 21 I: pivotally. mountedl at 2l3,.on.a-.bnacket. 2+5- carried by the side plate 39; When: the sleeve Tl rotates-.from itspositi'on shown byFig. 3 to that shown by Fig; l the when 201 onlthe. segment 199' is brought into engagement.- with. the arm 203, and continued rotation of the sleeve: causes-that arm to swingto the'right to' causezit? to-rock the bell crank lever 2'09, ZI'I t'o-the right to push the-upper valve l19-into its closed positi'on' shown by; Fig. 5. Continued. rotation of. the sleeve from. its position'shownby- Fig. 5. causes: the peripheral surface of the segment: I99 tozb'ean against the arm 203'; asshown in'Fig; 6', to hold. the valve I19 in itsclosed. position until" the cam arm I91 again entersthe slot: I93 to move thevalve into itslopenz position in. the. way: above de-- scribed;

The lower' valve. IN. is provided withia pain of. spaced: extensions 2.17. (Fig. 11-) eaohxof which: carries an. upstanding pin. M9; The. pin; 2 HI! of: the lower extension, as viewed.in-.Fig.. l'lgisxree: ceived by. the slot? 22 I: formedintheendidfa link 223, the other-end of: which latterispivotallyconnected; at 225, to:aplate;2 Z1: (Figs;.3fand:.ll). car: riedi bysandl extending between. the oppositeaside. plates 19 andi291. The other-"pina2il9 is:received bythe slot-.228 iformedin the end. of"a= link: 23 I; the other end. of: which. link. is: pivotally connected; at .233; to an-intermed'iate portionof the lihk. 223's. Cooperating with. the link- 231 adjacent its-1 con-.- nection 233 to the link 223 is a dow-nwardly; exe tending arm 235. (Figs. 35 and 11.) carried: by"a:. rock shaft 23.1 journal'ed atzopposite. ends imthe; side-plates. lit-and: 39.. This rock shaftzalsoicar riesa radially projectin-gsranr 239sa'd'aptedato cot-- operate with the cam arm: I91 on the sleeve'TL. After the upper valve I19 has been closediby'the:

cam arm I91 continued. rotation: of: the; sleeve: 7

causes that: arm. to engage with the arm". 2 3.9-. on therock shaft: 23.! and: turn then-coin shaft: to cause the arm. 235 carried by. it; to engage. the

link 2M and move thevalverl 8.1 =:into it'sopenposir tiomshowmbyFigaS; The arrangement oiathese:

8*. links causes the motion. of. the: arnr 235': imparted. in the valve: to be:mu1tipled1 so that the valve is open quickly.

Continued: rotation of the sleeve: 11. from its position. shown in Fig. 6- will cause the-cam am kill: to-engage the block 241i carried by the lower: valvet8sl= atitsrupperside to move'the valve from it's"- open position shown by Fig. 6- to its. closed. position shown by Fig.8;

Amillustrated (see Figs. 2, 2a; ant-113), the-uppen valve H5: when it is in itsolbsect position. shown. by lilig.v 3 is in engagement with the downturned' ends 243. of'a; row of spring. fingers 245 positioned at the outersid'e of. the-wall: H5 of thechamber [21 1! which. receives thenuts discharged from the hopper. Theserfingers asaillustrated', aremounted at. their. lower' ends on a horizontal 133F141 to which they are" preferably welded, that bar'being secured in any suitable manner; say: by screws: 249;. to-- the wall- I15 adjacent its lower: edge. When-.thechamber H1 is fillediwith nuts; andthe valve I19 is closed; that valve-must move'throu-gh amass. of nuts. A nut. which may be? caughtbetween: the advancing edge of? the valve in the downturnedwportion: 24-3Lof any of the fingers-will. cause that finger to' flex to the right, as viewed imFig 3; and thus prevent the nut. being; cut in. halves or otherwise multilatedr by the valve; When the valve opens a nut. so caught willfall; intdthe: chamber I71! with the rest of thenuts enteringthet chamber from thehopperz.

It will Ice-understood. that within the scope'of' theiappendedclaims wide deviations may-bemade from the form of. the invention. described without 7 departinggfrom the spirit of the invention;

I. claim:

1. A: cooking. machine having; in combinatiom at containenfor hot cooking: liquid; a. basket. for: the articles tobe cooked, mechanism: fen-moving the :basket throughacycleiwhich removes it from such-.liquidiandreplacesdt therein; a motor for operatingsaidmechanism; a-timingdevicedrivem byrsa-idmotor for: placing the latter operatively in': driving relationto said mechanism at successiveintervals, each-longer than the time required to movesaidbasket through onerofi its cyc1es,.for moving said: basket. through aisingleficycle at the beginning; of: each. of said-intervals; and operatorcontrolled means. for. regulating. saidtiming de vice for varying the durationof said intervals.

2.. A cooking,- machine accordingto claimil in: which the-timing; device: comprises: a plurality of cams driven by the motor and a'camifollower tor plaoingzthe motor inzdriving.relationztothemechanism for moving; thebasket, the operator. controlled; means comprisingmechanism fon'shifting the cam follower. for causing it to'cooperate with selected groups of. said cams.

3. A cookingmachine:having;.in combination; a. container for: hot cooking; liquid}, abasket for:

the articles'to be cooked,'.mechanism for moving:

the .basketthroughxa cycle whichremoves itifrom such liquid.and:- replaces: it; therein; a motor for operating said: mechanism; mechanism operated? by saidamotorrfon placing. therlatter at. timed in-' tervals-in .drivingrelation-to' said:.mechanism for moving the:basket,.whichmechanism: operated by" saidimotoncomprises:apart shiftable' by the- 011- erator into selectedpositions for varying the time elapsingbetween:saidxintervals.

42.. A cooking: machineihavinain combinatiom. arcontainenfor hotcooking; liquid, a'baskeh for:

the articles to :be. cooked; mechanism fortmovingv the basketithroughacycle which removes it from suclnliquidiandzreplaces ititherein',.a'substantially- .9 constant speed motor, mechanism driven by said motor for intermittently operatively connecting it to the basket moving mechanism for moving the basket through single cycles at timed intervals, said mechanism driven by the motor comprising relatively shiftable parts under the control of the operator for varying the duration between said intervals.

5. A cooking machine having, in combination, a container for hot cooking liquid, a basket for the articles to be cooked, mechanism for moving the basket through a cycle which removes it from such liquid and replaces it therein, a continuously rotated shaft, shiftable means for intermittently connecting said shaft in driving relation to said mechanism, and mechanism driven by said shaft for operating said shiftable means for'so connecting said shaft.

6. A cooking machine having, in combination,

a container for hot cooking liquid, a basket for the articles to be cooked, mechanism for moving the basket through a cycle which removes it from such liquid and replaces it therein, a continuously rotated shaft, shiftable means for in termittently connecting said shaft in driving relation to said mechanism, mechanism comprising a plurality of cams driven by said shaft and a cooperating cam follower for operating said shiftable means, and means under the control of the operator for positioning said cam follower to termittently connecting said shaft in driving relation to said mechanism, a plurality of relatively angularly spaced radially extending cams rotated by said shaft about a common axis, which cams terminate at different distances from said axis, a cam follower adapted to be actuated by said cams for operating said shiftable means, and means under the control of the operator for positioning said cam follower at different distances from said axis for causing one or more of said cams to operate it.

8. A cooking machine having, in combination, a container for hot cooking liquid, a basket for the articles to be cooked, mechanism for moving the basket through a cycle which removes it from a such liquid and replaces it therein, a continuously rotated shaft, shiftable means for intermittently connecting said shaft in driving relation to said mechanism, a spring for urging said shiftable means in one direction, a cam driven by said shaft for moving said shiftable means in the opposite direction against the force of the spring to a position in which it so connects said shaft, and mechanism cooperating with said shiftable means for holding it in that position against the force of said spring while the shaft drives the basket through one cycle and thereupon releasing it for causing the spring to move it to a position in which it is disconnected from said shaft.

9. A cooking machine having, in combination, a container for hot cooking liquid, a basket for the articles to be cooked, mechanism for moving the basket through a cycle which removes it from such liquid and replaces it therein, a rotary shaft, a part for operating said mechanism for moving the basket through one of said cycles during one revolution of said shaft, which part is splined to said shaft and is shiftable along it into and out of cooperating relation with said mechanism, and means operated by said shaft for moving said part into such cooperating relation and thereafter moving it out of such relation at the end of one revolution of said shaft.

10. A cooking machine according to claim 9 in which the means operated by the shaft for moving along it the part splined thereto comprises a plurality of timing cams driven by the shaft and a cam follower cooperating with said timing cams, and means under the control of the operator for positioning said cam follower to cause it to be operated by selected'cams of said timing cams for varying the duration between operations of the basket through its cycles.

11. A cooking machine according to claim 9 in which the means operated by the shaft for moving along it the part splined thereto comprises a plurality of relatively angularly spaced radially extending timing cams rotated by said. shaft about a common axis, which timing cams terminate at different distances from said axis, a cam follower adapted to be actuated by said timing cams for shifting along the shaft the part splined thereto, and means underthe control of the operator for positioning said cam follower at different distances fromsaid axis for causing one or more of said timing cams to operate it.

12. A cooking machine having, in combination, a container for hot hooking liquid, a basket for the articles to be cooked, mechanism for moving the basket through a cycle which removes it from such liquid and replaces it therein, a rotary shaft, a part for operating said mechanism for moving the basket through one ofv said cycles during one'revolution of said shaft, which part is splined to said shaft and is shiftable along it into and out of cooperating relation with said mechanism, a spring for urging said part in one direction along said shaft, mechanism actuated by said shaft for moving said part in the opposite direction against the force of said spring to a position in which said part is in its cooperating relation with said mechanism for moving the basket, and a further mechanism for holding said part in that position while the basket moves through one cycle and thereupon releasing it for permitting the spring to move said part out of such position.

13. A cooking machine having, in combination, a container for hot cooking liquid, a basket for the articles to be cooked, basket operating mech-i anism for moving the basket through a cycle which removesit from such liquid and replaces it therein, article charging mechanism for en-. tering articles into said basket when the latter is removed from said liquid during such cycle, continuously rotated motor, a first rotary part, which latter is in continuous driven relation .to said motor and is adapted'for intermittent connection to said basket operating mechanism for causing said motor to move said basket at intervals through successive single cycles, "a second rotary part, which latter is adapted for intermittent connection to said motor for causing said motor intermittently to operate said article charging mechanism, and mechanism operated by said motor for intermittently connecting said first part to said basket operating mechanism and said second part to said motor.

14. A COOklIlg machine having, in combination, a container for hot cooking liquid, a basket for the articles to be cooked, basket operating mech- 

